Member of Technical Staff, Microsoft Robotics (perception)

Microsoft Microsoft · Big Tech · Redmond, WA +1 · Software Engineering

This role focuses on developing and integrating perception, localization, mapping, and navigation capabilities for robotic platforms within Microsoft's physical intelligence platform. It involves designing and implementing production-quality autonomy systems that combine multi-sensor perception, SLAM, state estimation, and navigation planning, with an emphasis on turning research into robust, scalable systems for real-world deployment across diverse robots and environments.

What you'd actually do

  1. Lead the design, development, and integration of perception and navigation systems for robotic platforms, including SLAM, localization, mapping, sensor fusion, obstacle detection, semantic scene understanding, and motion planning interfaces.
  2. Develop robust state estimation and localization pipelines using data from cameras, depth sensors, LiDAR, IMUs, wheel odometry, proprioception, GPS, force/torque sensors, or other robot sensor modalities.
  3. Build spatial representations for navigation and planning, including occupancy maps, semantic maps, costmaps, 3D scene representations, traversability maps, object-level representations, and dynamic environment models.
  4. Integrate perception outputs with planning, control, simulation, and fleet operations systems to support safe and reliable robot autonomy in real-world environments.
  5. Architect perception-navigation pipelines that meet practical constraints for latency, bandwidth, compute efficiency, reliability, calibration drift, sensor degradation, and environmental variability.

Skills

Required

  • C++
  • Python
  • SLAM
  • sensor fusion
  • state estimation
  • mapping
  • obstacle detection
  • semantic scene understanding
  • motion planning

Nice to have

  • C#
  • Java
  • JavaScript
  • visual-inertial odometry
  • LiDAR odometry
  • robotics perception
  • robotics navigation
  • spatial AI
  • physical AI

What the JD emphasized

  • production-quality autonomy systems
  • physically grounded agentic AI workflows
  • production-quality robotics autonomy development

Other signals

  • physical intelligence platform
  • physically grounded agentic AI workflows
  • robotics AI models
  • production-quality autonomy systems
  • heterogeneous robots